Each professor addresses an area of personal expertise and focuses not only on the matter at hand, but on the larger story-on the links between the works and the figures discussed. The lectures address-in chronological sequence-a series of major works that have shaped the ongoing development of Western thought both in their own right and in cultural dialogue with other traditions. In the process, the course engages many of the most perennial and far-reaching questions that we face in our daily lives.Lecture 1 From Sumer to AthensLecture 2 The Epic of GilgameshLecture 3 The Hebrew Bible: Historical Background and GenesisLecture 4 The Hebrew Bible: Exodus and the CovenantLecture 5 The Hebrew Bible: Psalms, Prophets, The Song of Songs, and JobLecture 6 Greece: From the Bronze Age to the Archaic AgeLecture 7 The IliadLecture 8 Homer: The OdysseyLecture 9 Hesiod and Lyric PoetryLecture 10 Greek Tragedy: AeschylusLecture 11 Greek Tragedy: SophoclesLecture 12 Greek Tragedy: EuripidesLecture 13 Herodotus of HalicarnassusLecture 14 Greek Art

    (B) Scientific knowledge is always provisional and tells us nothing that is universal, necessary, or certain about the world. Welcome to the science wars—a long-running battle over the status of scientific knowledge that began in ancient Greece, raged furiously among scientists, social scientists, and humanists during the 1990s, and has re-emerged in today's conflict between science and religion over issues such as evolution.Professor Steven L. Goldman, whose Teaching Company course on Science in the 20th Century was praised by customers as "a scholarly achievement of the highest order" and "excellent in every way," leads you on a quest for the nature of scientific reasoning in this intellectually pathbreaking lecture series, Science Wars: What Scientists Know and How They Know It.Those who have taken Professor Goldman's previous course, which is an intensive survey of the revolution in scientific knowledge from 1900 to 2000, may have wondered: if what counts as scientific knowledge can transform so dramatically within only 100 years, what exactly is scientific knowledge? Science Wars addresses this surprisingly difficult question.Five Centuries of the Science WarsIn 24 half-hour lectures, Science Wars explores the history of competing conceptions of scientific knowledge and their implications for science and society from the onset of the Scientific Revolution in the 1600s to the present. It may seem that the accelerating pace of discoveries, inventions, and unexpected insights into nature during this period guarantees the secure foundations of scientific inquiry, but that is far from true. Consider these cases:The scientific method: In the 1600s the English philosopher Francis Bacon defined the scientific method in its classic form: the use of inductive reasoning to draw conclusions from an exhaustive body of facts. But "no scientist has ever been a strict Baconian," says Professor Goldman. "If you followed that, you would get nowhere."A "heated" debate: Around 1800 the dispute over the nature of heat was resolved in favor of the theory that heat is motion and not a substance given off during burning. But then the French mathematical physicist Joseph Fourier wrote a set of equations that accurately described how heat behaves regardless of what it "really" is, which, Fourier contended, was not a scientific question at all.Paradigm shifts: The publication in 1962 of Thomas Kuhn's The Structure of Scientific Revolutions precipitated a radical change in attitudes toward scientific knowledge, prompted by Kuhn's insight that science is not an entirely rational enterprise, and that its well-established theories (or paradigms) are overturned in a revolutionary, nonlogical process.Postmodern putdown: The postmodern attack on science as a privileged mode of inquiry made some headway in the late 20th century. But the credibility of the movement wilted in 1996, when a postmodern journal unwittingly published a spoof by physicist Alan Sokal, purporting to prove that physical theory was socially constructed. Sokal then exposed his piece as a parody.In the penultimate lecture of the course, Professor Goldman considers intelligent design—the argument that evolution can't account for the immense complexity of life and that a master designer must be at work. He approaches this topical debate by asking: What are the minimum criteria that define a hypothesis as scientific, and does intelligent design qualify? Having already covered five centuries of the science wars in the previous lectures, you will analyze this controversy with a set of tools that allows you to see the issues in a sharp, new light.What Is Reality?"Fasten your seatbelts," says Professor Goldman at the outset of Lecture 21—an advisory that applies equally to the whole course, which covers an astonishing array of ideas and thinkers. Throughout, Professor Goldman never loses his narrative thread, which begins 2,400 years ago with Plato's allegorical battle between "the gods" and "the earth giants"—between those for whom knowledge is universal, necessary, and certain; and those for whom it cannot be so and is based wholly on experience.The problem of what constitutes scientific knowledge can be illustrated with one of the most famous and widely accepted scientific theories of all time, Nicolaus Copernicus's heliostatic (stationary sun) theory of the solar system, which has undergone continual change since it was first proposed in 1543: Copernicus called for the planets to move in uniform circular motion around the sun, slightly displaced from the center. Using observations by Tycho Brahe, Johannes Kepler revised the Copernican model, discarding the ancient dogma of circular motion, which did not fit the data. Instead, he guessed that the planets in fact move in elliptical orbits. In his influential work endorsing the Copernican theory, Galileo ignored Kepler's corrections and opted for circular motion. Notoriously, the Catholic Church condemned Galileo for heresy. But the church was actually correct that he had no basis for claiming the heliocentric theory was true, rather than simply an interpretation of experience. Galileo's picture of space was superseded by Newton's and later by Einstein's, which also will doubtless be revised. Even something as basic as the elliptical motion of the planets is a vast oversimplification. There are no closed curves in space, since the solar system is moving around the center of the galaxy; the galaxy is moving within the local cluster; and the local cluster is also moving. Although we still call the conventional picture of the solar system Copernican astronomy, there is effectively no resemblance between astronomy today and Copernicus's 1543 theory of the heavens. The same is also true of other theories, such as the atomic theory of matter. All scientific theories are in a state of ceaseless revision, which raises the question of what reality "really" is. As the contemporary philosopher of science Mary Hesse has pointed out, the lesson of the history of science seems to be that the theories we currently hold to be true are as likely to be overturned as the theories they replaced!Sharpen Your Understanding of What Science IsThe uncertainty about the status of scientific knowledge and about the objectivity of the scientific enterprise led to a broad assault on science in the late 20th century by sociologists, philosophers, and historians, many connected with the postmodern movement. The lectures covering this attack and the ensuing counterattack by scientists are some of the most thrilling in the course and involve a number of figures whom Professor Goldman knows personally.Of one of the firebrands in this conflict, the late Viennese philosopher of science Paul Feyerabend, Professor Goldman says, "I myself took a seminar with Feyerabend when he was teaching at Berkeley in the early 1960s. … Feyerabend was not really off the wall, although he was often depicted that way. … He too recognized, as everyone must, that after all, science does work and science is knowledge of a sort. It's just not the absolute knowledge that scientists and philosophers have historically claimed that it is."By the time you reach the end of this course, you will understand exactly what science is, and you will be enlightened about a fascinating problem that perhaps you didn't even know existed. "There have been a raft of popular books about what scientists know," says Professor Goldman, "but to the best of my knowledge, there is not a single one of these popular books that focuses centrally on the question of how scientists know what they know."This course serves as that book.Course Lecture Titles1. Knowledge and Truth Are Age-Old Problems 2. Competing Visions of the Scientific Method 3. Galileo, the Catholic Church, and Truth 4. Isaac Newtons Theory of the Universe 5. Science vs. Philosophy in the 17th Century 6. Locke, Hume, and the Path to Skepticism 7. Kant Restores Certainty 8. Science, Society, and the Age of Reason 9. Science Comes of Age in the 19th Century 10. Theories Need Not Explain 11. Knowledge as a Product of the Active Mind 12. Trading Reality for Experience 13. Scientific Truth in the Early 20th Century 14. Two New Theories of Scientific Knowledge 15. Einstein and Bohr Redefine Reality 16. Truth, Ideology, and Thought Collectives 17. Kuhn's Revolutionary Image of Science 18. Challenging Mainstream Science from Within 19. Objectivity Under Attack 20. Scientific Knowledge as Social Construct 21. New Definitions of Objectivity 22. Science Wars of the Late 20th Century 23. Intelligent Design and the Scope of Science 24. Truth, History, and Citizenship12 Audio CDs(24 lectures, 30 minutes/lecture)

    This is a set of eighteen audio CDs and an accompanying softcover course guidebook.Contains parts 1 - 3 of the Thinking About Capitalism course.

    By studying the physical astronomy of all the planets in the Solar System, we can attempt to understand their true nature. Ultimately, these lectures will bring us to a greater understanding of the Solar System's creation, which brings us again back to the beginning and what it means to us as we look outward from our rotating Earth.

    Supernatural magic is what our ancestors used in order to explain the world before they developed the scientific method. The ancient Egyptians explained the night by suggesting the goddess Nut swallowed the sun. The Vikings believed a rainbow was the gods’ bridge to earth. The Japanese used to explain earthquakes by conjuring a gigantic catfish that carried the world on its back—earthquakes occurred each time it flipped its tail. These are magical, extraordinary tales. But there is another kind of magic, and it lies in the exhilaration of discovering the real answers to these questions. It is the magic of reality—science.Packed with clever thought experiments, dazzling illustrations and jaw-dropping facts, The Magic of Reality explains a stunningly wide range of natural phenomena. What is stuff made of? How old is the universe? Why do the continents look like disconnected pieces of a puzzle? What causes tsunamis? Why are there so many kinds of plants and animals? Who was the first man, or woman? This is a page-turning, graphic detective story that not only mines all the sciences for its clues but primes the reader to think like a scientist as well.Richard Dawkins, the world’s most famous evolutionary biologist and one of science education’s most passionate advocates, has spent his career elucidating the wonders of science for adult readers. But now, in a dramatic departure, he has teamed up with acclaimed artist Dave McKean and used his unrivaled explanatory powers to share the magic of science with readers of all ages. This is a treasure trove for anyone who has ever wondered how the world works. Dawkins and McKean have created an illustrated guide to the secrets of our world—and the universe beyond—that will entertain and inform for years to come.

    A series of 24 Lectures on the New England Transcendalist Movement delivered by Ashton Nichols, Professor of English at Dickinson College.

    The PatriarchAn Overview 2. The Education of a Philosophe 3. Philosophical Letters, Part I 4. Philosophical Letters, Part II 5. The Years of Cirey 6. From Optimism to Humanism 7. Voltaire and the Philosophical Tale 8. Voltaire at Ferney 9. Voltaire and God 10. Voltaire and History 11. Voltaire and Tradition 12. Apotheosis

    In late 2017, scientists at a Hawaiian observatory glimpsed an object soaring through our inner solar system, moving so quickly that it could only have come from another star. Avi Loeb, Harvard’s top astronomer, showed it was not an asteroid; it was moving too fast along a strange orbit, and left no trail of gas or debris in its wake. There was only one conceivable explanation: the object was a piece of advanced technology created by a distant alien civilization.   In Extraterrestrial, Loeb takes readers inside the thrilling story of the first interstellar visitor to be spotted in our solar system. He outlines his controversial theory and its profound implications: for science, for religion, and for the future of our species and our planet. A mind-bending journey through the furthest reaches of science, space-time, and the human imagination, Extraterrestrial challenges readers to aim for the stars—and to think critically about what’s out there, no matter how strange it seems.

    It now has 600,000 to a million page hits daily. Every now and then, Munroe would get emails asking him to arbitrate a science debate. 'My friend and I were arguing about what would happen if a bullet got struck by lightning, and we agreed that you should resolve it . . . ' He liked these questions so much that he started up What If. If your cells suddenly lost the power to divide, how long would you survive? How dangerous is it, really, to be in a swimming pool in a thunderstorm? If we hooked turbines to people exercising in gyms, how much power could we produce? What if everyone only had one soulmate?When (if ever) did the sun go down on the British empire? How fast can you hit a speed bump while driving and live?What would happen if the moon went away?In pursuit of answers, Munroe runs computer simulations, pores over stacks of declassified military research memos, solves differential equations, and consults with nuclear reactor operators. His responses are masterpieces of clarity and hilarity, studded with memorable cartoons and infographics. They often predict the complete annihilation of humankind, or at least a really big explosion. Far more than a book for geeks, WHAT IF: Serious Scientific Answers to Absurd Hypothetical Questions explains the laws of science in operation in a way that every intelligent reader will enjoy and feel much the smarter for having read.

    And while many of us look to make sense of Russia through its political history, in many ways a real grasp of this awe-inspiring country comes from looking closely at its cultural achievements. The 24 lectures of Understanding Russia: A Cultural History survey hundreds of years of Russian culture, from the world of Ivan the Terrible to the dawn of the Soviet Union to the post-war tensions of Putin's Russia. Blending history with cultural studies, they are designed to bring you closer than ever before to the Russian people - not just the authoritarian rulers like Peter the Great, the Romanovs, and Stalin but the everyday men and women who sought their own meaning in the poetry of Pushkin, the comfort of early folk tales, the faith of medieval iconography, the avant-garde films of Eisenstein, and more. You'll discover surprising insights into centuries of cultural history, including peasant superstitions, such as avoiding whistling indoors, and the culture of queuing for goods and services that defined everyday life for ordinary Soviets. You'll also spend time in the company of novelists, painters, poets, filmmakers, impresarios, composers, revolutionaries, and intellectuals who shaped Russia in myriad ways, including The Five, a group of composers who created a distinctly national sound based in part on Russian folk music; and Sergei Eisenstein, the filmmaker whose Battleship Potemkin revolutionized the language of cinema. In a time when the eyes of the Western world are constantly drawn to Russia, it's amazing how little we really know about its culture. These lectures will help you finally understand that complex, thrilling, and undeniably fascinating spirit.

    Offering multilevel insight into one of the most astounding real-life dramas of modern history, The Fall and Rise of China weaves together the richly diverse developments and sociopolitical currents that created the China we now see in the headlines.As we enter what some are already calling the "Chinese century," the role of China is deeply fundamental to our reading of the direction of world civilization and history. In 48 penetrating lectures, The Fall and Rise of China takes you to the heart of the events behind China's new global presence, leaving you with a clear view of both the story itself and its critical implications for our world.Course Lecture Titles48 Lectures, 30 minutes per lecture 1. The Splendor That Was China, 600–1700 2. Malthus and Manchu Hubris, 1730–1800 3. Barbarians at the Gate, 1800–1860 4. Rural Misery and Rebellion, 1842–1860 5. The Self-Strengthening Movement, 1860–1890 6. Hundred Days of Reform and the Boxer Uprising 7. The End of Empire, 1900–1911 8. The Failed Republic, 1912–1919 9. The Birth of Chinese Communism, 1917–1925 10. Chiang, Mao, and Civil War, 1926–1934 11. The Republican Experiment, 1927–1937 12. "Resist Japan!" 1937–1945 13. Chiang's Last Stand, 1945–1949 14. "The Chinese People Have Stood Up!" 15. Korea, Taiwan, and the Cold War, 1950–1954 16. Socialist Transformation, 1953–1957 17. Cracks in the Monolith, 1957–1958 18. The Great Leap Forward, 1958–1960 19. Demise of the Great Leap Forward, 1959–1962 20. "Never Forget Class Struggle!" 1962–1965 21. "Long Live Chairman Mao!" 1964–1965 22. Mao's Last Revolution Begins, 1965–1966 23. The Children's Crusade, 1966–1967 24. The Storm Subsides, 1968–1969 25. The Sino-Soviet War of Nerves, 1964–1969 26. Nixon, Kissinger, and China, 1969–1972 27. Mao's Deterioration and Death, 1971–1976 28. The Legacy of Mao Zedong—An Appraisal 29. The Post-Mao Interregnum, 1976–1977 30. Hua Guofeng and the Four Modernizations 31. Deng Takes Command, 1978–1979 32. The Historic Third Plenum, 1978 33. The "Normalization" of U.S.-China Relations 34. Deng Consolidates His Power, 1979–1980 35. Socialist Democracy and the Rule of Law 36. Burying Mao, 1981–1983 37. "To Get Rich Is Glorious," 1982–1986 38. The Fault Lines of Reform, 1984–1987 39. The Road to Tiananmen, 1987–1989 40. The Empire Strikes Back, 1989 41. After the Deluge, 1989–1992 42. The "Roaring Nineties," 1992–1999 43. The Rise of Chinese Nationalism, 1993–2001 44. China's Lost Territories—Taiwan, Hong Kong 45. China in the New Millennium, 2000–2008 46. China's Information Revolution 47. "One World, One Dream"—The 2008 Olympics 48. China's Rise—The Sleeping Giant Stirs

    In this narrative, Walter Isaacson explains how his mind worked and the mysteries of the universe that he discovered.

    And of a nation that fought a Civil War that freed its slaves, and outlawed segregation and discrimination.This is history shaped by Revolutionary War and Vietnam, Thomas Jefferson and William Jefferson Clinton, Puritanism and Feminism, Booker T. Washington and Martin Luther King, Jamestown and Disneyland, Harpers Ferry and Henry Ford, oil wells and Orson Welles.This is a review of the extraordinary blend of people, ideas, inventions, and events that comprise The History of the United States. In this seven-part, 84-lecture series, three noted historians and lecturers—two of whom teach other popular Teaching Company courses—present the nation's past through their areas of special interest.

    Wilczek’s groundbreaking work in quantum physics was inspired by his intuition to look for a deeper order of beauty in nature. In fact, every major advance in his career came from this intuition: to assume that the universe embodies beautiful forms, forms whose hallmarks are symmetry—harmony, balance, proportion—and economy. There are other meanings of “beauty,” but this is the deep logic of the universe—and it is no accident that it is also at the heart of what we find aesthetically pleasing and inspiring.Wilczek is hardly alone among great scientists in charting his course using beauty as his compass. As he reveals in A Beautiful Question, this has been the heart of scientific pursuit from Pythagoras, the ancient Greek who was the first to argue that “all things are number,” to Galileo, Newton, Maxwell, Einstein, and into the deep waters of twentiethcentury physics. Though the ancients weren’t right about everything, their ardent belief in the music of the spheres has proved true down to the quantum level. Indeed, Wilczek explores just how intertwined our ideas about beauty and art are with our scientific understanding of the cosmos.Wilczek brings us right to the edge of knowledge today, where the core insights of even the craziest quantum ideas apply principles we all understand. The equations for atoms and light are almost literally the same equations that govern musical instruments and sound; the subatomic particles that are responsible for most of our mass are determined by simple geometric symmetries. The universe itself, suggests Wilczek, seems to want to embody beautiful and elegant forms. Perhaps this force is the pure elegance of numbers, perhaps the work of a higher being, or somewhere between. Either way, we don’t depart from the infinite and infinitesimal after all; we’re profoundly connected to them, and we connect them. When we find that our sense of beauty is realized in the physical world, we are discovering something about the world, but also something about ourselves.Gorgeously illustrated, A Beautiful Question is a mind-shifting book that braids the age-old quest for beauty and the age-old quest for truth into a thrilling synthesis. It is a dazzling and important work from one of our best thinkers, whose humor and infectious sense of wonder animate every page. Yes: The world is a work of art, and its deepest truths are ones we already feel, as if they were somehow written in our souls.

    But are there limits to what we can discover about our physical universe?In this very personal journey to the edges of knowledge, Marcus du Sautoy investigates how leading experts in fields from quantum physics and cosmology, to sensory perception and neuroscience, have articulated the current lie of the land. In doing so, he travels to the very boundaries of understanding, questioning contradictory stories and consulting cutting edge data.Is it possible that we will one day know everything? Or are there fields of research that will always lie beyond the bounds of human comprehension? And if so, how do we cope with living in a universe where there are things that will forever transcend our understanding?In What We Cannot Know, Marcus du Sautoy leads us on a thought-provoking expedition to the furthest reaches of modern science. Prepare to be taken to the edge of knowledge to find out if there’s anything we truly cannot know.